DE1061894B - Circuit arrangement for monitoring a current source - Google Patents

Description

The invention relates to a circuit arrangement for monitoring the voltage of a current source, which is subject to fluctuations, in which a switchover takes place when fixed voltage limits are exceeded. It is known to monitor a voltage with a contact voltmeter. In addition, relay circuits have also been used for monitoring. These circuits monitor the current sources directly, and the relay tolerances do not allow any "precise limits. For this reason, the holding current has already been increased or the fault current reduced when switching over. In another known circuit arrangement, a display means is placed in the" cross-branch of a Wheatstone bridge ^ ■ When two of the resistors 15 "are dependent on the flowing current, so that from a certain value a detuning of the .. bridge occurs and the ^ -current flowing in the shunt arm causes the relay to pick up when the response value is reached this arrangement leads to an improvement in the display sensitivity, it is still strongly dependent on the relay tolerances and also does not allow any control options for the limit values To monitor alternating current in an adjustable control range and the add tand to signal with a short switchover time. The arrangement should be ready for operation immediately after switching on. The invention solves the problem in that the voltage divider forming the input of the multi-stage monitoring circuit is directly connected to the voltage to be monitored and the first stage picks up a voltage on this voltage divider and in that parallel to the voltage divider a constant voltage switching means is in series with a resistor and that Constant voltage switching means alone regulates the operating voltage for the other switching means and supplies a fixed comparison voltage, and that the output circuit of the last stage is connected to a point of the voltage divider so that each time the second stage is switched over, the voltage divider is influenced by connecting or disconnecting a shunt and thereby the operating point for the subsequent opposite switchover is shifted to the other limit value.

According to a further embodiment of the invention, the basis of the first stage consists of two transistor stages existing monitoring device on the voltage to be monitored. With changeable switching means the operating point can be shifted and the measuring range adjusted.

Circuit arrangement for monitoring
a power source

Applicant:

Standard electrical system Lorenz

Stock corporation,
Stuttgart-Zuffenhausen,
Hellmuth-Hirth-Str. 42

Erich Rempp, Komtal (Württ),
has been named as the inventor

The invention will now be described using an exemplary embodiment. The alternating voltage to be monitored is rectified and applied to terminals a, b . A DC voltage to be monitored can be applied directly to these terminals. The voltage to be monitored is tapped from the base of the first transistor at the voltage divider resistor Wi 1, Wi2 and Wi9. The operating voltage for the monitoring device is kept at a constant value by the Zener diode ZD connected to the input voltage via the resistor Wi3.

According to the voltage set with resistor 1, transistor 1 (Trsl) is conductive and blocks transistor 2. If the voltage at terminals a, b increases , transistor 1 blocks and transistor 2 becomes conductive. The relay N located in the collector circuit of the transistor 2 now picks up and switches over the desired signal with its contact η. As a result of the current now additionally flowing through resistor 9, a greater voltage drops across it and thus shifts the operating point of transistor 1, so that this transistor only responds again when the voltage is lower than that at the first switching point and thus blocks transistor 2. The relay N then drops out again and the operating point at Trsl is shifted.

By changing the size of the resistor 9 is a setting of the range in which no switching should take place, possible. By changing the resistors 2 and 3, the measuring range can be set for the monitoring device. The resistor 3 is used to monitor a AC voltage in connection with the condenser

909 578/180

Claims (6)

Sator C2 at the same time also to improve the sieving. If a direct voltage is monitored with the monitoring device, the capacitor C 2 can consequently be omitted. Depending on the setting, this monitoring device can be used to signal overshoots or undershoots of the voltage to be monitored. Claims: IO 1. Circuit arrangement for monitoring the fluctuating voltage of a current source, in which switching takes place when specified voltage limits are exceeded, characterized in that the voltage divider (Wil, Wi2, Wi9) forming the input of the multi-stage monitoring circuit is directly connected to the voltage to be monitored and the first stage (Trsl) taps a voltage on this voltage divider and that parallel to the voltage divider a voltage-constant switching means (ZD) is in series with a resistor (Wi 3) and the voltage-constant switching means (ZD) only regulates the operating voltage for the other switching means and a supplies a fixed reference voltage and that the output circuit of the last stage (TVj 2) is connected to a point of the voltage divider so that each time the second stage is switched over, the voltage divider is switched on or off Switching off a shunt is influenced and thereby the operating point for the subsequent one opposite switching is shifted to the other limit value. 2. Circuit arrangement according to claim 1, characterized in that the monitoring device consists of two transistor stages and the base of the first stage on the one to be monitored Tension lies. 3. Circuit arrangement according to claim 1 and 2, characterized in that one of the switching means (Wi9) provided for shifting the operating point is designed to be changeable. 4. Circuit arrangement according to Claim 1 to 3, characterized in that the switching means (A ⁷ , Wi9) causing the shift of the operating point are electrically connected to one another. 5. Circuit arrangement according to Claim 1 to 4, characterized in that switching means (Wi2, Wi2>) assigned to one another are adjustable to the same extent in order to change the measuring range. 6. Circuit arrangement according to claim 1 to 5, characterized in that the switching means (Wi3) provided for separating the voltage to be monitored from the operating voltage, also in connection with a capacitor (C2), improves the screening for alternating current. Considered publications:
German patent specification No. 754 474. 1 sheet of drawings © 909 578/180 7.59